KR20090010856U - A structure keeping warm insulation using non-crosslinking polyethylene foam - Google Patents

Abstract

The present invention relates to a building insulation insulating material using a non-crosslinked polyethylene foam, more specifically, excellent heat insulation, heat resistance, water resistance, buffering properties, etc., because the chemical properties are not combined, no toxic gas is generated during combustion, and workability And it relates to a non-crosslinked polyethylene foam for building insulation insulating material at low manufacturing cost.

The present invention is a heat insulating material installed in the wall surface of the building for heat insulation and heat resistance of the building, the heat insulating material, the first heat reflector 10 is bonded to one side inside the wall surface of the building; A stem 20 woven of polypropylene or polyethylene resin having one side bonded to the other side of the first heat reflector 10; One side is bonded to the other side of the stem 20, the non-woven fabric 30 to help the insulation and insulation of the building; An air cap (40) having one side bonded to the other side of the nonwoven fabric (30) and having an excellent air layer for thermal insulation; One side surface is bonded to the other side of the air cap 40, the non-crosslinked foam 50 having a plurality of air cells; One side surface is bonded to the other side surface of the non-crosslinked foam 50, characterized in that it is composed of a second heat reflector (60) reflecting heat.

1st heat reflector, hemp, nonwoven fabric, air cap, non-crosslinked foam, 2nd heat reflector

Description

Building thermal insulation material using non-crosslinked polyethylene foam {A STRUCTURE KEEPING WARM INSULATION USING NON-CROSSLINKING POLYETHYLENE FOAM}

The present invention relates to a building thermal insulation material using a non-crosslinked polyethylene foam, more specifically, a thermal insulation material of the building at a more economical cost by using a non-crosslinked polyethylene foam having excellent thermal insulation, high shock absorption and excellent processability due to the low thermal conductivity. The present invention relates to a non-crosslinked polyethylene foam for building thermal insulation which can prevent accidents caused by toxic gases in case of fire because no toxic gases are generated during combustion.

Insulation, which is used as a building's internal exterior material, is defined as "low heat flow by increasing the heat transfer resistance of a flowing object." Architecturally speaking, this means reducing the heat transmission rate of the structure (particularly the wall). The purpose of using insulation in buildings for such insulation is to improve the indoor thermal environment, to prevent the occurrence of surface condensation, and to save energy.

Korea is a resource-poor country that relies on imports for most of its national energy consumption. In order to leap as an advanced country in the 21st century, it is essential to save energy costs through energy consumption and development of alternative energy.

In addition, the energy problem is directly related not only to the national economic problem but also to the global environment. Korea's energy consumption usually consists of 55% in the industrial sector, 25% in the building sector, and 20% in the transportation sector.

The largest share of energy consumption in buildings is heat loss / acquisition through the skin, which typically accounts for more than 40% of the building's cooling / heating load.

Therefore, in order to save energy in buildings, proper insulation design and construction of the outer shell should be made first.

However, buildings without proper insulation design and construction can maintain the indoor temperature only when energy is continuously applied, resulting in large engine losses, waste of cost, and poor comfort.

In Korea, styrofoam, urethane foam, glass wool, rock wool, PE foam, etc. are mainly used for heat insulation, and resistance-type insulation methods for suppressing heat perfusion due to conduction and convection have been mainly used.

In general, the insulation used in the insulation of the house uses a plate-shaped styrofoam or a heat insulating material with a honeycomb of gypsum board or paper on one side of the styrofoam. However, these insulations are light, easy to handle, and insulated. Or it is installed between the wall and the exterior material such as marble does not reflect the heat, there is a problem that can not block the loss of heat because it does not keep the air of the space portion, there is a disadvantage that does not relieve the internal and external shocks not equipped with air bubbles. .

In other words, the insulation material is also important in reflection, but if the air layer is enclosed in the middle, it is not only excellent in insulation but also sound-absorbing by acting as a sound absorbing material. There is a problem that is not as efficient as blocking the movement of and blocking the movement of sound.

In addition, urethane foam is a product with excellent thermal insulation. Urethane foam is expensive and has a problem of increasing construction cost. Glass fiber has excellent fire resistance, but fine glass powder generated during construction damages worker's skin or coughs. There is a problem that causes, there is a problem that is expensive, such as urethane foam.

The present invention is devised to solve the above problems, the purpose of the present invention is excellent in heat insulation, heat resistance, water resistance, buffering properties, etc., because the chemical properties are not combined, toxic gas does not occur during combustion, workability and It is to provide a non-crosslinked polyethylene foam for low-cost building insulation insulation.

The structure of the present invention for achieving the above object is a heat insulating material that is installed inside the wall surface of the building for heat insulation and heat resistance of the building, the heat insulating material, the first side is bonded to one side inside the wall surface of the building A heat reflector 10; A stem 20 woven of polypropylene or polyethylene resin having one side bonded to the other side of the first heat reflector 10; One side is bonded to the other side of the stem 20, the non-woven fabric 30 to help the insulation and insulation of the building; An air cap (40) having one side bonded to the other side of the nonwoven fabric (30) and having an excellent air layer for thermal insulation; One side surface is bonded to the other side of the air cap 40, the non-crosslinked foam 50 having a plurality of air cells; One side surface is bonded to the other side surface of the non-crosslinked foam 50, characterized in that it is composed of a second heat reflector (60) reflecting heat.

Here, the first heat reflector 10 and the second heat reflector 60 is preferably aluminum foil.

As described above, according to the present invention, by using a non-crosslinked polyethylene foam having a low thermal conductivity, excellent thermal insulation, high shock absorption, and excellent workability, the thermal insulation material of a building can be provided at a more economical cost, and no toxic gas is generated during combustion. Therefore, in case of fire, it is effective to prevent human accidents caused by toxic gases.

In addition, there is an effect that the insulation insulation is more firmly fixed by nails or pins on the wall by the sack.

Hereinafter, with reference to the accompanying drawings will be described in detail the building insulation insulating material using the non-crosslinked polyethylene foam of the present invention.

1 is a perspective view showing the building insulation insulating material using the non-crosslinked polyethylene foam of the present invention, Figure 2 is a cross-sectional view showing the cross-sectional shape of the building insulation insulating material using the non-crosslinked polyethylene foam of the present invention.

1 to 2, the building insulation insulating material using the non-crosslinked polyethylene foam according to the present invention is a first heat reflector, one side is bonded to the inside of the wall of the building, hemp, non-woven fabric, air cap And a non-crosslinked foam and a second heat reflector.

The first heat reflector 10 preferably uses aluminum foil to have a low emissivity against heat radiation.

The stem 20 is woven from polypropylene or polyethylene resin, and one side of the stem 20 is bonded to the other side of the first heat reflector 10 in the same area.

In addition, the nonwoven fabric 30 is bonded to the other side of the stem 20 in a state having the same area as the nonwoven fabric 30, the nonwoven fabric 30 helps to insulate and insulate the building.

Herein, the nonwoven fabric 30 is made of a fiber in a felt shape by arranging the fibers in parallel or in a non-directional direction without being subjected to a woven fabric process and combining them with a synthetic resin adhesive. As a raw material fiber, synthetic materials such as cotton, viscose rayon and nylon It is preferable to use it as a fiber.

In addition, the nonwoven fabric 30 may be formed in various ways depending on the type of raw materials and the method of fabrication and bonding of the fabric, the type of adhesive, etc., but also because of the large difference in the characteristics of each product as a building insulation first In consideration of the purpose to be used, the insulation and insulation properties should be considered.

The air cap 40 is bonded to the other side of the nonwoven fabric 30 using thermal bonding or synthetic resin bond.

Here, by forming the air cap 40, which is a sealed air layer, not only increases the thermal insulation of the thermal insulation material, but also acts as a sound absorbing material to have a sound insulation effect, and serves to mitigate external shocks.

And, the non-crosslinked foam 50 has a plurality of air cells, one side is bonded to the other side of the air cap 40.

Here, the non-crosslinked foam 50 has a higher impact absorption than the crosslinked foam, and does not combine the chemical properties in the manufacturing process has the advantage that no toxic gas generated during combustion.

In other words, in the case of crosslinked foams, it is a substance that combines chemical properties, so there is a risk of suffocation by humans due to toxic gases in the fire of buildings. It can also prevent the risk of personnel accidents.

 In addition, the non-crosslinked foam is odorless and odorless, which does not give an odor to the worker when processing the thermal insulation material, so that the thermal insulation material can be more easily produced, and it is not detrimental to the health of workers engaged in the production site. This is excellent and can be supplied at a low price has the effect of reducing the construction cost.

As such, since the crosslinked foam has better advantages and effects than the crosslinked foam, it is preferable to use the crosslinked foam in the present invention.

On the other hand, the second heat reflector 60 is one side is bonded to the other side of the non-crosslinked foam 50 serves to reflect the heat, it is to use the aluminum foil in the same way as the first heat reflector 10 desirable.

When installing the thermal insulation material of the present invention configured as described above on the inner wall of the building, first cut to correspond to the size of the wall surface to be installed the thermal insulation material, and then using the nail or pin in the state that the thermal insulation material of the present invention in close contact with the wall surface It is fixed to the wall.

At this time, the spigot 20 serves to prevent the nail or pin penetrates the thermal insulation material of the present invention so as not to be loose when fixed to the wall surface so that the thermal insulation material can be more firmly fixed to the wall surface.

As described above, embodiments of the present invention have been described, but those skilled in the art to which the present invention pertains will be capable of various modifications without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiment, but should be determined not only by the utility model registration claims described below, but also by those equivalent to the claims.

1 is a perspective view showing the building insulation insulating material using the non-crosslinked polyethylene foam of the present invention,

Figure 2 is a cross-sectional view showing the cross-sectional shape of the building insulation insulating material using the non-crosslinked polyethylene foam of the present invention.

<Description of the symbols for the main parts of the drawings>

10: first heat reflection body 20: sack

30: nonwoven fabric 40: air cap

50: uncrosslinked foam 60: second heat reflector

Claims (2)

Insulation material installed inside the wall of the building for heat insulation and heat resistance of the building, The heat insulating material, the first heat reflection body 10 is one side is bonded to the inside of the wall surface of the building; A stem 20 woven of polypropylene or polyethylene resin having one side bonded to the other side of the first heat reflector 10; One side is bonded to the other side of the stem 20, the non-woven fabric 30 to help the insulation and insulation of the building; An air cap (40) having one side bonded to the other side of the nonwoven fabric (30) and having an excellent air layer for thermal insulation; One side surface is bonded to the other side of the air cap 40, the non-crosslinked foam 50 having a plurality of air cells; The building insulation insulating material using an uncrosslinked polyethylene foam, characterized in that composed of a second heat reflector (60) that is bonded to the other side of the non-crosslinked foam (50) to reflect heat. The method of claim 1, The first heat reflector 10 and the second heat reflector (60) is a building insulation using a crosslinked polyethylene foam, characterized in that the aluminum foil.

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